63 papers found
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Combination of Chemical Genetics and Phosphoproteomics for Kinase Signaling Analysis Enables Confident Identification of Cellular Downstream Targets*
Proteomics Analysis of Cellular Imatinib Targets and their Candidate Downstream Effectors
Glycoprotein Capture and Quantitative Phosphoproteomics Indicate Coordinated Regulation of Cell Migration upon Lysophosphatidic Acid Stimulation*
Quantitative Analysis of Kinase-Proximal Signaling in Lipopolysaccharide-Induced Innate Immune Response
Kinase inhibitors: Narrowing down the real targets
Quantitative Site-specific Phosphorylation Dynamics of Human Protein Kinases during Mitotic Progression*
An Integrated Phosphoproteomics Work Flow Reveals Extensive Network Regulation in Early Lysophosphatidic Acid Signaling*
Quantitative Phosphokinome Analysis of the Met Pathway Activated by the Invasin Internalin B from Listeria monocytogenes*
Sharm, K. et al. Proteomics strategy for quantitative protein interaction profiling in cell extracts. Nature Methods 6, 741-744
Global Effects of Kinase Inhibitors on Signaling Networks Revealed by Quantitative Phosphoproteomics*
Large-scale Proteomics Analysis of the Human Kinome
Quantitative phosphoproteomics - An emerging key technology in signal-transduction research
Kinase-Selective Enrichment Enables Quantitative Phosphoproteomics of the Kinome across the Cell Cycle
Investigation of Protein-tyrosine Phosphatase 1B Function by Quantitative Proteomics
Zhang YX, Knyazev PG, Cheburkin YV, Sharma K, Knyazev YP, Orfi L et al.. AXL is a potential target for therapeutic intervention in breast cancer progression. Cancer Res 68: 1905-1915
Analysis of protein kinases by quantitative chemical proteomics
Proteomics Analysis of Protein Kinases by Target Class-selective Prefractionation and Tandem Mass Spectrometry
Signal Transduction Therapy with Rationally Designed Kinase Inhibitors
Characterisation of kinase-selective inhibitors by chemical proteomics
Proteomic Characterization of the Angiogenesis Inhibitor SU6668 Reveals Multiple Impacts on Cellular Kinase Signaling
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